Parallel network simulations with NEURON (Migliore et al 2006)

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Accession:64229
The NEURON simulation environment has been extended to support parallel network simulations. The performance of three published network models with very different spike patterns exhibits superlinear speedup on Beowulf clusters.
Reference:
1 . Migliore M, Cannia C, Lytton WW, Markram H, Hines ML (2006) Parallel Network Simulations with NEURON. J Comp Neurosci 21:110-119 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Realistic Network;
Brain Region(s)/Organism:
Cell Type(s):
Channel(s):
Gap Junctions:
Receptor(s):
Gene(s):
Transmitter(s):
Simulation Environment: NEURON;
Model Concept(s): Methods;
Implementer(s): Hines, Michael [Michael.Hines at Yale.edu];
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netmod
parbush
data
AMPA.mod *
arhRT03.mod *
cadecay.mod
cadRT03.mod
cah.mod
calRT03.mod
catRT03.mod *
GABAa.mod *
GABAb.mod *
intf.mod
k2RT03.mod *
kahpRT03.mod
kaRT03.mod *
kca.mod *
kcRT03.mod
kdr.mod
kdrp.mod
kdrRT03.mod *
kmRT03.mod *
misc.mod
na.mod
nafRT03.mod *
nap.mod
napRT03.mod *
NMDA.mod *
nstim.mod
vecst.mod
batch_.hoc
bg_cvode.inc
boltz_cvode.inc
geneval_cvode.inc
modstat
netcon.inc
test1.sh
xtmp
                            
: $Id: nstim.mod,v 1.1.1.1 2005/12/15 15:16:39 hines Exp $

NEURON	{ 
  ARTIFICIAL_CELL NStim
  RANGE interval, number, start, end
  RANGE noise
}

PARAMETER {
  interval	= 10 (ms) <1e-9,1e9>: time between spikes (msec)
  number	= 10 <0,1e9>	: number of spikes
  start		= 50 (ms)	: start of first spike
  noise		= 0 <0,1>	: amount of randomeaness (0.0 - 1.0)
  end		= 1e9 (ms)	: time to terminate train
}

ASSIGNED {
  event (ms)
  on
  endt (ms)
}

PROCEDURE seed (x) {
  set_seed(x)
}

INITIAL {
  on = 0
  if (noise < 0) { noise = 0 }
  if (noise > 1) { noise = 1 }
  if (interval <= 0.) { interval = .01 (ms) }
  if (start>=0 && number>0 && end>0) {
    event = start + invl(interval) - interval*(1. - noise)
    if (event < 0) { event = 0 }
    net_send(event, 3)
  }
}	

PROCEDURE init_sequence (t(ms)) {
  if (number > 0) {
    on = 1
    event = t
    endt = t + 1e-6 + interval*(number-1)
  }
}

FUNCTION invl (mean (ms)) (ms) {
  if (noise == 0) {
    invl = mean
  } else {
    invl = (1. - noise)*mean + noise*mean*exprand(1)
  }
}

NET_RECEIVE (w) {
  if (flag == 0) { : external event
    if (w > 0 && on == 0) { : turn on spike sequence
      init_sequence(t)
      net_send(0, 1)
    } else if (w < 0 && on == 1) { : turn off spiking
      on = 0
    }
  }
  if (flag == 3) { : from INITIAL
    if (on == 0) {
      init_sequence(t)
      net_send(0, 1)
    }
  }
  if (flag == 1 && on == 1) {
    net_event(t)
    event = event + invl(interval)
    if (event > endt || event > end) {
      on = 0
    } else {
      net_send(event - t, 1)
    }
  }
}

FUNCTION fflag () { fflag=1 }

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